The Intrinsic Ferromagnetism in a MnO₂ Monolayer

Abstract

The Mn atom, because of its special electronic configuration of 3d⁵4s², has been widely used as a dopant in various two-dimensional (2D) monolayers such as graphene, BN, silicene and transition metal dichalcogenides (TMDs). The distributions of doped Mn atoms in these systems are highly sensitive to the synthesis process and conditions, thus suffering from problems of low solubility and surface clustering. Here we show for the first time that the MnO₂ monolayer, synthetized 10 years ago, where Mn ions are individually held at specific sites, exhibits <i>intrinsic ferromagnetism</i> with a Curie temperature of 140 K, comparable to the highest <i>T</i>_C value achieved experimentally for Mn-doped GaAs. The well-defined atomic configuration and the intrinsic ferromagnetism of the MnO₂ monolayer suggest that it is superior to other magnetic monolayer materials